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Well, code speaks more (I have hard-coded some things, to isolate the problem and make the question shorter):

class wrapper:
    def __init__( self, func ):
        self.func = func
    def __call__( self, *args ):
        print( "okay, arg = ", args[0] )
        self.func( self, args )

class M( type ):
    def __new__( klass, name, bases, _dict ):
        _dict[ "f" ] = wrapper( _dict[ "f" ] ) 
        return type.__new__( klass, name, bases, _dict )

class AM( metaclass = M ):
    def __init__( self ):
        self.a = 0 
    def f( self, a ):
        self.a = a 

am = AM()
print( am.a ) # prints 0, expected
am.f( 1 )  # prints: "okay, arg = 1"
print( am.a ) # prints 0 again, also expected

I want the second print to show 1, instead of 0. In other words, is it possible, and if so - how, to pass the "real self" to my wrapper?

Note: I know why this prints 0 and I know what is the problem here ( wrapper's self is passed, instead of the object, that calls f), but I don't know how to solve it.

Any ideas?

EDIT - thanks all for the answers, +1 from me. But I think I need to do this with class, as I need to store some additional info (like metadata) (this is simplified version of my real problem). Is it possible and how, if so? Sorry for not specifying this at the very beginning.

share|improve this question
up vote 3 down vote accepted

Make wrapper a descriptor so that you know the specific instance being poked.

share|improve this answer
Could you give me some examples? I didn't get it, I am missing something..(there's nothing similar like this in C++, right?) – Kiril Kirov Jun 21 '11 at 18:35
A descriptor is simply a class that Python passes extra information about the class and instance it's bound to when calling the descriptor's __get__() or __set__() methods. – Ignacio Vazquez-Abrams Jun 21 '11 at 18:39
Hm, I see. I think that this is going to work for me. But then, how to call the function with arguments. __get__ takes 3 args - self, obj, objtype. In __init__ I can store the function as member, but what about arguments? Also, in __get__ I cannot return self.func( obj ) ? (self.func is the stored cunstion and obj is the calling object; when I return self.func, this really returns function, but if return self.func( obj ) None :? I need this, as it seems, that the first parameter( self ) should be explicitly passed? Otherwise, I get error for less parameters ) Thanks a lot! – Kiril Kirov Jun 21 '11 at 19:49
Return a function that sets the attribute on the class appropriately. – Ignacio Vazquez-Abrams Jun 21 '11 at 19:52
I edited my comment before seeing you answer. Anyway, I get your point, I'll try. – Kiril Kirov Jun 21 '11 at 20:16

Use function wrapper, instead of class one. Closure will take care of the rest:

>>> def wrapper(meth):
...     def _wrapped_meth(self, *args):
...             print('okay, arg = ', args)
...             meth(self, *args)
...     return _wrapped_meth
>>> class M(type):
...     def __new__(klass, name, bases, dct):
...             dct['f'] = wrapper(dct['f'])
...             return type.__new__(klass, name, bases, dct)
>>> class AM(metaclass=M):
...     def __init__(self):
...             self.a = 0
...     def f(self, a):
...             self.a = a
>>> am = AM()
>>> print(am.a)
>>> am.f(1)
okay, arg = (1,)
>>> print(am.a)
share|improve this answer
The closure isn't the only ingredient. You only get self becaues the class recognized wrapper as a method and generates an instance method descriptor for it. – delnan Jun 21 '11 at 18:12
Nice! +1 for now. could you, please, explain how this works. I mean - the wrapper..I have seen such wrappers, but they all return the help function, in this case - _wrapped_meth. Here, the function returns its argument - meth. When and how _wrapped_meth is called/used. – Kiril Kirov Jun 21 '11 at 18:22
@delnan - really? I can do this with class? How? Because I need to store some additional information - some other members (metadata), etc. inside the wrapper. – Kiril Kirov Jun 21 '11 at 18:27
@Kiril: Of course you can, if you don't mind getting into descriptors - see other answers. Note however that you can also have extra state with closures (just add local variables to wrapper and use them in _wrapped_meth) - it only gets impractical when you need additional methods. – delnan Jun 21 '11 at 18:30
@delnan - hmm, thanks a lot! I'll try this. – Kiril Kirov Jun 21 '11 at 18:36

You can make your wrapper class a non-data descriptor, as described in the Functions and Methods section of Raymond Hettinger's excellent How-To Guide for Descriptors -- which in this case is pretty easy since it just means giving the class a __get__() method which creates and returns the wrapped method desired.

Here's what I mean:

class wrapper:
    def __init__( self, func ):
        self.func = func

    def __get__( self, instance, owner ):
        def wrapped( *args ):
            print( "okay, arg = ", args[0] )
            return self.func( instance, *args )
        return wrapped

Using a class means you can easily add other members and/or metadata as necessary.

share|improve this answer
+1 - That is exactly what I did, combining the other two answers (= – Kiril Kirov Jun 22 '11 at 14:05

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